/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      https://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.commons.imaging.examples.tiff;

import java.awt.image.BufferedImage;
import java.io.File;
import java.io.IOException;
import java.io.PrintStream;
import java.util.HashMap;
import java.util.List;

import javax.imageio.ImageIO;

import org.apache.commons.imaging.FormatCompliance;
import org.apache.commons.imaging.ImagingException;
import org.apache.commons.imaging.bytesource.ByteSource;
import org.apache.commons.imaging.formats.tiff.TiffContents;
import org.apache.commons.imaging.formats.tiff.TiffDirectory;
import org.apache.commons.imaging.formats.tiff.TiffField;
import org.apache.commons.imaging.formats.tiff.TiffImagingParameters;
import org.apache.commons.imaging.formats.tiff.TiffReader;
import org.apache.commons.imaging.formats.tiff.constants.GdalLibraryTagConstants;
import org.apache.commons.imaging.formats.tiff.constants.GeoTiffTagConstants;
import org.apache.commons.imaging.formats.tiff.constants.TiffTagConstants;
import org.apache.commons.lang3.StringUtils;

/**
 * Provides a example application showing how to access metadata and imagery from TIFF files using the low-level access routines. This approach is especially
 * useful if the TIFF file includes multiple images.
 */
public class ReadTagsAndImages {

    /**
     * Provides specifications for Coordinate Transformation Codes as defined in Appendix 6.3.3.3 "Coordinate Transformation Codes" of the original GeoTiff
     * specification (Ritter, 1995).
     */
    enum CoordinateTransformationCode {
        TransverseMercator(1), TransvMercator_Modified_Alaska(2), ObliqueMercator(3), ObliqueMercator_Laborde(4), ObliqueMercator_Rosenmund(5),
        ObliqueMercator_Spherical(6), Mercator(7), LambertConfConic_2SP(8), LambertConfConic_Helmert(9), LambertAzimEqualArea(10), AlbersEqualArea(11),
        AzimuthalEquidistant(12), EquidistantConic(13), Stereographic(14), PolarStereographic(15), ObliqueStereographic(16), Equirectangular(17),
        CassiniSoldner(18), Gnomonic(19), MillerCylindrical(20), Orthographic(21), Polyconic(22), Robinson(23), Sinusoidal(24), VanDerGrinten(25),
        NewZealandMapGrid(26), TransvMercator_SouthOriented(27);

        /**
         * Gets the enumeration value associated with the specified key if any.
         *
         * @param key a positive integer
         * @return if the key is matched, a value enumeration value; otherwise, a null.
         */
        static CoordinateTransformationCode getValueForKey(final int key) {
            for (final CoordinateTransformationCode v : values()) {
                if (v.key == key) {
                    return v;
                }
            }
            return null;
        }

        int key;

        CoordinateTransformationCode(final int key) {
            this.key = key;
        }
    }

    enum GeoKey {
        // From 6.2.1 GeoTiff Configuration Keys
        GTModelTypeGeoKey(1024), /* Section 6.3.1.1 Codes */
        GTRasterTypeGeoKey(1025), /* Section 6.3.1.2 Codes */
        GTCitationGeoKey(1026), /* documentation */

        // From 6.2.2 Geographic Coordinate System Parameter Keys
        GeographicTypeGeoKey(2048), /* Section 6.3.2.1 Codes */
        GeogCitationGeoKey(2049), /* documentation */
        GeogGeodeticDatumGeoKey(2050), /* Section 6.3.2.2 Codes */
        GeogPrimeMeridianGeoKey(2051), /* Section 6.3.2.4 codes */
        GeogLinearUnitsGeoKey(2052), /* Section 6.3.1.3 Codes */
        GeogLinearUnitSizeGeoKey(2053), /* meters */
        GeogAngularUnitsGeoKey(2054), /* Section 6.3.1.4 Codes */
        GeogAngularUnitSizeGeoKey(2055), /* radians */
        GeogEllipsoidGeoKey(2056), /* Section 6.3.2.3 Codes */
        GeogSemiMajorAxisGeoKey(2057), /* GeogLinearUnits */
        GeogSemiMinorAxisGeoKey(2058), /* GeogLinearUnits */
        GeogInvFlatteningGeoKey(2059), /* ratio */
        GeogAzimuthUnitsGeoKey(2060), /* Section 6.3.1.4 Codes */
        GeogPrimeMeridianLongGeoKey(2061), /* GeogAngularUnit */

        // From 6.2.3 Projected Coordinate System Parameter Keys
        ProjectedCRSGeoKey(3072), /* Section 6.3.3.1 codes */
        PCSCitationGeoKey(3073), /* documentation */
        ProjectionGeoKey(3074), /* Section 6.3.3.2 codes */
        ProjCoordTransGeoKey(3075), /* Section 6.3.3.3 codes */
        ProjLinearUnitsGeoKey(3076), /* Section 6.3.1.3 codes */
        ProjLinearUnitSizeGeoKey(3077), /* meters */
        ProjStdParallel1GeoKey(3078), /* GeogAngularUnit */
        ProjStdParallel2GeoKey(3079), /* GeogAngularUnit */
        ProjNatOriginLongGeoKey(3080), /* GeogAngularUnit */
        ProjNatOriginLatGeoKey(3081), /* GeogAngularUnit */
        ProjFalseEastingGeoKey(3082), /* ProjLinearUnits */
        ProjFalseNorthingGeoKey(3083), /* ProjLinearUnits */
        ProjFalseOriginLongGeoKey(3084), /* GeogAngularUnit */
        ProjFalseOriginLatGeoKey(3085), /* GeogAngularUnit */
        ProjFalseOriginEastingGeoKey(3086), /* ProjLinearUnits */
        ProjFalseOriginNorthingGeoKey(3087), /* ProjLinearUnits */
        ProjCenterLongGeoKey(3088), /* GeogAngularUnit */
        ProjCenterLatGeoKey(3089), /* GeogAngularUnit */
        ProjCenterEastingGeoKey(3090), /* ProjLinearUnits */
        ProjCenterNorthingGeoKey(3091), /* ProjLinearUnits */
        ProjScaleAtNatOriginGeoKey(3092), /* ratio */
        ProjScaleAtCenterGeoKey(3093), /* ratio */
        ProjAzimuthAngleGeoKey(3094), /* GeogAzimuthUnit */
        ProjStraightVertPoleLongGeoKey(3095), /* GeogAngularUnit */
        // From 6.2.4 Vertical Coordinate System Keys
        VerticalCSTypeGeoKey(4096), /* Section 6.3.4.1 codes */
        VerticalCitationGeoKey(4097), /* documentation */
        VerticalDatumGeoKey(4098), /* Section 6.3.4.2 codes */
        VerticalUnitsGeoKey(4099), /* Section 6.3.1.3 codes */

        // Widely used key not defined in original specification
        To_WGS84_GeoKey(2062); /* Not in original spec */

        int key;

        GeoKey(final int key) {
            this.key = key;
        }
    }

    // The following elements were copied from the original
    // GeoTIFF specification document
    // Ritter, Niles and Ruth, Mike (1995). GeoTIFF Format Specification,
    // GeoTIFF Revision 1.0. Specification Version 1.8.1. 31 October 1995
    // Appendix 6.
    // See also:
    // Open Geospatial Consortium [OGC] (2019) OGC GeoTIFF Standard Version 1.1
    // http://www.opengis.net/doc/IS/GeoTIFF/1.1

    private static final String[] USAGE = { "Usage ReadTagsAndImages <input file>  [output file]", "   input file: mandatory file to be read",
            "   output file: optional root name and path for files to be written" };

    private static HashMap<Integer, GeoKey> keyMap;
    private static String nameFormat;

    /**
     * Extract a sub-string from the ASCII parameters. The ASCII parameters include a vertical-bar symbol to act as a separator between strings. This method
     * includes some safety-checking logic which should not be necessary except in the case of a badly formatted GeoTIFF file.
     *
     * @param asciiParameters the content of TIFF Tag ID=34737.
     * @param pos             the position of the sub-string within the content
     * @param len             the length of the sub-string.
     * @return a valid string.
     */
    private static String extractAscii(final String asciiParameters, final int pos, final int len) {
        if (asciiParameters != null && len > 0 && pos + len <= asciiParameters.length()) {
            return asciiParameters.substring(pos, pos + len - 1);
        }
        return "~~~";
    }

    /**
     * Extract a string giving the floating-point values for the content taken from TIFF Tag ID=34736. Because a TAG might potentially include a large number of
     * entries, this method limits the return value to the first three entries. This method includes some safety-checking logic which should not be necessary
     * except in the case of a badly formed GeoTIFF file.
     *
     * @param doubleParameters an array of values
     * @param pos              the starting position of the values for the GeoKey
     * @param len              the number of values for the GeoKey
     * @return a formatted string.
     */
    private static String extractDouble(final double[] doubleParameters, final int pos, final int len) {
        if (doubleParameters != null && doubleParameters.length >= pos + len) {
            final StringBuilder sb = new StringBuilder();
            for (int i = 0; i < len && i < 3; i++) {
                if (i > 0) {
                    sb.append(" | ");
                }
                sb.append(Double.toString(doubleParameters[pos + i]));
            }
            if (len > 3) {
                sb.append(" | ...");
            }
            return sb.toString();
        }
        return "~~~";
    }

    /**
     * Interprets elements from one row of the GeoKey table, returning a descriptive string where possible. The GeoTIFF specification is extensive, and only a
     * subset of the possible descriptions are supported here.
     *
     * @param geoKey           a valid GeoKey enumeration
     * @param ref              the reference (not used at this time)
     * @param len              the length of the associated string or floating-point value array (if used)
     * @param valueOrPosition  a single integer value or the position within the associated floating point array
     * @param doubleParameters an array of doubles
     * @param asciiParameters  a String consisting of ASCII characters.
     * @return a valid string, potentially a note to see the specification if a more useful description is not available.
     */
    private static String interpretElements(final GeoKey geoKey, final int ref, final int len, final int valueOrPosition, final double[] doubleParameters,
            final String asciiParameters) {
        switch (geoKey) {
        case GTModelTypeGeoKey:
            switch (valueOrPosition) {
            case 1:
                return "Projected Coordinate System";
            case 2:
                return "Geographic Coordinate System";
            case 3:
                // the Geocentric coordinate system is seldom used
                return "Geocentric Coordinate System";
            default:
                break;
            }
            break;
        case GTRasterTypeGeoKey:
            switch (valueOrPosition) {
            case 1:
                return "RasterPixelIsArea";
            case 2:
                return "RasterPixelIsPoint";
            default:
                return "User Defined";
            }
        case GeographicTypeGeoKey:
            switch (valueOrPosition) {
            case 4269:
                return "North American Datum 1983";
            case 4030:
                return "World Geodetic Survey 1984";
            case 4326:
                return "EPSG 4326, Geographic 2D WGS 84";
            default:
                break;
            }
            break;
        case GTCitationGeoKey:
            return extractAscii(asciiParameters, valueOrPosition, len);
        case GeogCitationGeoKey:
            return extractAscii(asciiParameters, valueOrPosition, len);
        case GeogAngularUnitsGeoKey:
            switch (valueOrPosition) {
            case 9101:
                return "Radians";
            case 9102:
                return "Degrees";
            default:
                break;
            }
            break;
        case GeogSemiMajorAxisGeoKey:
            return extractDouble(doubleParameters, valueOrPosition, len);
        case GeogInvFlatteningGeoKey:
            return extractDouble(doubleParameters, valueOrPosition, len);
        case To_WGS84_GeoKey:
            return extractDouble(doubleParameters, valueOrPosition, len);
        case ProjectedCRSGeoKey:
            // in original spec was "ProjectedCSTypeGeoKey"
            if (0 <= valueOrPosition && valueOrPosition <= 1023) {
                return "Reserved";
            }
            if (1024 <= valueOrPosition && valueOrPosition <= 32766) {
                return "EPSG Code #" + valueOrPosition;
            }
            if (valueOrPosition == 32767) {
                return "User-Defined Projection";
            }
            break;
        case ProjectionGeoKey:
            if (valueOrPosition == 32767) {
                return "User-Defined";
            }
            break;
        case ProjCoordTransGeoKey:
            final CoordinateTransformationCode code = CoordinateTransformationCode.getValueForKey(valueOrPosition);
            if (code != null) {
                return code.name();
            }
            break;
        case ProjLinearUnitsGeoKey:
            switch (valueOrPosition) {
            case 9001:
                return "Meter";
            case 9002:
                return "Foot";
            case 9003:
                return "Survey Foot"; // used in U.S.
            default:
                break;
            }
            break;
        case ProjStdParallel1GeoKey:
        case ProjStdParallel2GeoKey:
        case ProjNatOriginLongGeoKey:
        case ProjFalseEastingGeoKey:
        case ProjFalseNorthingGeoKey:
        case ProjFalseOriginLongGeoKey:
        case ProjFalseOriginLatGeoKey:
        case ProjFalseOriginEastingGeoKey:
        case ProjFalseOriginNorthingGeoKey:
        case ProjCenterLongGeoKey:
        case ProjCenterLatGeoKey:
            return String.format("%13.4f", doubleParameters[valueOrPosition]);

        default:
            break;
        }
        return "See GeoTIFF specification";
    }

    /**
     * Open the specified TIFF file and print its metadata (fields) to standard output. If an output root-name is specified, write images to specified path.
     *
     * @param args the command line arguments
     * @throws org.apache.commons.imaging.ImagingException in the event of an internal data format or version compatibility error reading the image.
     * @throws IOException                                 in the event of an I/O error.
     */
    public static void main(final String[] args) throws ImagingException, IOException {
        if (args.length == 0) {
            // Print usage and exit
            for (final String s : USAGE) {
                System.err.println(s);
            }
            System.exit(0);
        }

        // For brevity, map System.out to a PrintStream reference.
        // In the future, this might also be used for writing to a text file
        // rather than standard output.
        final PrintStream ps = System.out;

        final File target = new File(args[0]);
        String rootName = null;
        if (args.length == 2) {
            rootName = args[1];
        }
        final boolean optionalImageReadingEnabled = StringUtils.isNotEmpty(rootName);

        final ByteSource byteSource = ByteSource.file(target);
        final TiffImagingParameters params = new TiffImagingParameters();

        // Establish a TiffReader. This is just a simple constructor that
        // does not actually access the file. So the application cannot
        // obtain the byteOrder, or other details, until the contents has
        // been read. Then read the directories associated with the
        // file by passing in the byte source and options.
        final TiffReader tiffReader = new TiffReader(true);
        final TiffContents contents = tiffReader.readDirectories(byteSource, optionalImageReadingEnabled, // read image data, if present
                FormatCompliance.getDefault());

        // Loop on the directories and fetch the metadata and
        // image (if available, and configured to do so)
        int iDirectory = 0;
        for (final TiffDirectory directory : contents.directories) {
            // Get the metadata (Tags) and write them to standard output
            final boolean hasTiffImageData = directory.hasTiffImageData();
            if (iDirectory > 0) {
                ps.println("\n-----------------------------------------------------\n");
            }

            String contentType = "";
            if (directory.hasTiffRasterData()) {
                contentType = "Numeric raster data";
            } else if (directory.hasTiffImageData()) {
                contentType = "Image data";
            }
            ps.format("Directory %2d %s, description: %s%n", iDirectory, contentType, directory.description());
            // Loop on the fields, printing the metadata (fields)
            final List<TiffField> fieldList = directory.getDirectoryEntries();
            for (final TiffField tiffField : fieldList) {
                String s = tiffField.toString();
                if (s.length() > 90) {
                    s = s.substring(0, 90);
                }
                // In the case if the offsets (file positions) for the Strips
                // or Tiles, the string may be way too long for output and
                // will be truncated. Therefore, indicate the numnber of entries.
                // These fields are indicated by numerical tags 0x144 and 0x145
                if (tiffField.getTag() == 0x144 || tiffField.getTag() == 0x145) {
                    final int i = s.indexOf(')');
                    final int[] a = tiffField.getIntArrayValue();
                    s = s.substring(0, i + 2) + " [" + a.length + " entries]";
                }
                ps.println(" " + s);
            }

            summarizeGeoTiffTags(ps, directory);

            if (optionalImageReadingEnabled && hasTiffImageData) {
                final File output = new File(rootName + "_" + iDirectory + ".jpg");
                ps.println("Writing image to " + output.getPath());
                final BufferedImage bImage = directory.getTiffImage(params);
                ImageIO.write(bImage, "JPEG", output);
            }
            ps.println("");
            iDirectory++;
        }
    }

    /**
     * Checks to see if the directory has GeoTIFF tags and, if so, provides a summary of their content.
     *
     * @param ps        a valid instance to receive output
     * @param directory a valid directory
     * @throws ImagingException in the event of a data-format error or unhandled I/O error.
     */
    private static void summarizeGeoTiffTags(final PrintStream ps, final TiffDirectory directory) throws ImagingException {

        if (keyMap == null) {
            final GeoKey[] values = GeoKey.values();
            int maxNameLength = 0;
            keyMap = new HashMap<>();
            for (final GeoKey g : values) {
                final String name = g.name();
                if (name.length() > maxNameLength) {
                    maxNameLength = name.length();
                }
                keyMap.put(g.key, g);
            }
            // create a formatting string that will pad all names
            // out with trailing spaces to provide text alignment in code below.
            nameFormat = String.format("   %%-%ds", maxNameLength);
        }

        // check to see if the directory has GeoTIFF tags.
        final short[] geoKeyDirectory = directory.getFieldValue(GeoTiffTagConstants.EXIF_TAG_GEO_KEY_DIRECTORY_TAG, false);
        if (geoKeyDirectory == null || geoKeyDirectory.length < 4) {
            // The TIFF directory does not contain GeoTIFF information
            return;
        }
        ps.println("");
        ps.println("Summary of GeoTIFF Elements ----------------------------");

        final short[] bitsPerSample = directory.getFieldValue(TiffTagConstants.TIFF_TAG_BITS_PER_SAMPLE, false);
        final short[] sampleFormat = directory.getFieldValue(TiffTagConstants.TIFF_TAG_SAMPLE_FORMAT, false);
        String contentTypeString = null;
        if (bitsPerSample != null && sampleFormat != null) {
            if (bitsPerSample[0] == 16 && sampleFormat[0] == TiffTagConstants.SAMPLE_FORMAT_VALUE_TWOS_COMPLEMENT_SIGNED_INTEGER) {
                contentTypeString = "Numeric, Short Integer";
            } else if ((bitsPerSample[0] == 32 || bitsPerSample[0] == 64) && sampleFormat[0] == TiffTagConstants.SAMPLE_FORMAT_VALUE_IEEE_FLOATING_POINT) {
                contentTypeString = "Numeric, Floating Point (" + bitsPerSample[0] + "-bit samples)";
            }
        }
        if (contentTypeString != null) {
            ps.format("%nContent Type: %s", contentTypeString);
            final String[] gdalNoDataString = directory.getFieldValue(GdalLibraryTagConstants.EXIF_TAG_GDAL_NO_DATA, false);
            if (gdalNoDataString != null && gdalNoDataString.length > 0) {
                ps.format("    GDAL No-Data value: %s", gdalNoDataString[0]);
            }
            ps.format("%n");
        }

        // all GeoKeyDirectory elements are unsigned shorts (2 bytes).
        // Some of which exceed the value 32767, the maximum value of
        // a signed short). Because Java does not support an unsigned short type,
        // we need to mask in the low-order 2 bytes and obtain a 4-byte integer
        // equivalent.
        final int[] elements = new int[geoKeyDirectory.length];
        for (int i = 0; i < geoKeyDirectory.length; i++) {
            elements[i] = geoKeyDirectory[i] & 0xffff;
        }

        // Get the double field, Tag ID=34736 (0x87B0). This field
        // will usually be present. Some TIFF products supply only the
        // European Petroleum Survey Group (EPSG) map projection ID
        // and may omit the floating-point map-projection parameters.
        // That approach is generally discouraged, but not prohibited.
        final TiffField doubleParametersField = directory.findField(GeoTiffTagConstants.EXIF_TAG_GEO_DOUBLE_PARAMS_TAG);
        double[] doubleParameters = null;
        if (doubleParametersField != null) {
            doubleParameters = doubleParametersField.getDoubleArrayValue();
        }

        // Get the ASCII field, Tag ID=34737 (0x87B1). This field
        // is often, but not always, present.
        final TiffField asciiParametersField = directory.findField(GeoTiffTagConstants.EXIF_TAG_GEO_ASCII_PARAMS_TAG);
        String asciiParameters = null;
        if (asciiParametersField != null) {
            asciiParameters = asciiParametersField.getStringValue();
        }

        ps.format("%nGeoKey Table%n");
        ps.println("     key     ref     len   value/pos     name");
        int k = 0;
        int n = elements.length / 4;
        for (int i = 0; i < n; i++) {
            final int key = elements[k];
            final int ref = elements[k + 1];
            final int len = elements[k + 2];
            final int vop = elements[k + 3];
            String label = "";
            if (ref == GeoTiffTagConstants.EXIF_TAG_GEO_ASCII_PARAMS_TAG.tag) {
                label = "(A)";
            } else if (ref == GeoTiffTagConstants.EXIF_TAG_GEO_DOUBLE_PARAMS_TAG.tag) {
                label = "(D)";
            }
            for (int j = 0; j < 4; j++) {
                ps.format("%8d", elements[k++]);
            }
            ps.format("   %-3s", label);

            // The first four elements in the integer array are not
            // actually a GeoKey, but rather an overall identifier
            final GeoKey geoKey;
            final String name;
            final String interpretation;
            if (i == 0) {
                name = "~~~";
                interpretation = "~~~";
            } else {
                geoKey = keyMap.get(key);
                if (geoKey == null) {
                    name = "Unknown GeoKey";
                    interpretation = "~~~";
                } else {
                    name = geoKey.name();
                    interpretation = interpretElements(geoKey, ref, len, vop, doubleParameters, asciiParameters);
                }
            }

            ps.format(nameFormat, name);
            ps.format("%s", interpretation);
            ps.format("%n");
        }

        // Note: The y coordinate of the model pixel scale is backwards.
        // GeoTIFF images are stored from upper-left corner downward
        // (following the conventional graphics standards). In cases
        // where the rows in the image or raster run from north to south,
        // one might expect that the delta-Y between rows would be
        // a negative number. But by the GeoTIFF standard,
        // the vertical spacing is given as a positive number.
        final TiffField pixelScaleField = directory.findField(GeoTiffTagConstants.EXIF_TAG_MODEL_PIXEL_SCALE_TAG);
        final double[] pixelScale;
        if (pixelScaleField == null) {
            ps.format("%nModelPixelScale is not supplied%n");
        } else {
            pixelScale = pixelScaleField.getDoubleArrayValue();
            ps.format("%nModelPixelScale%n");
            for (final double element : pixelScale) {
                ps.format("   %15.10e", element);
            }
            ps.format("%n");
        }

        final TiffField modelTiepointField = directory.findField(GeoTiffTagConstants.EXIF_TAG_MODEL_TIEPOINT_TAG);
        if (modelTiepointField != null) {
            ps.format("%nModelTiepointTag%n");
            ps.println("           Pixel                           Model");

            final double[] tiePoints = modelTiepointField.getDoubleArrayValue();
            n = tiePoints.length / 6;
            for (int i = 0; i < n; i++) {
                ps.format("   ");
                for (int j = 0; j < 3; j++) {
                    ps.format("%6.1f", tiePoints[i * 6 + j]);
                }
                ps.format("     ");
                for (int j = 3; j < 6; j++) {
                    ps.format("%13.3f", tiePoints[i * 6 + j]);
                }
                ps.format("%n");
            }
        }

        final TiffField modelTransformField = directory.findField(GeoTiffTagConstants.EXIF_TAG_MODEL_TRANSFORMATION_TAG);
        if (modelTransformField != null) {
            ps.format("%nModelTransformationTag%n");
            final double[] mtf = modelTiepointField.getDoubleArrayValue();
            if (mtf.length >= 16) {
                for (int i = 0; i < 4; i++) {
                    ps.format("   ");
                    for (int j = 0; j < 4; j++) {
                        ps.format("%13.3f", mtf[i * 4 + j]);
                    }
                    ps.format("%n");
                }
            }
        }
    }
}
